The work done in carrying a charge of `5 mu C` form a point `A` to a point `B` in an electric field is `10mJ`. The potential difference `(V_(B) - V_(A))` is then

The work done in carrying an electron from point A to a point B in an electric is 10 MJ. The potential difference (V_(B)-V_(A)) is then

In figure two points A and B are located in a region of electric field . The potential difference V_(B)-V_(A) is

The work done in carrying a point charge form one point to another in an electrostatic field depends on the path along which the point charge is carried.

When a 2 mu C charge is carried from point A to point B, the amount of work done by the electric field is 50 mu J . What is the potential difference and which point is at a higher potential ?

The work done in moving a charge from one point to the other is 20J. If the potential difference between the points is 10V, the charge is:

How much work will be done in bringing a charge of 400 muC from infinity to some point P in the region of electric field ? Given that the electric potential at point P is 20 V ?

20 J of work has to be done against an existing electric field to take a charge of 0.05 C from A to B. How much is the potential difference V_(B)-V_(A) ?

15 joule of work has to be done against an existing electric field to take a charge of 0.01 C from A to B. Then the potential difference (V_(B) - V_(A)) is :-

How much work is done in moving a charge of 5C across two points having a potential difference of 16V?